阅读说明：本技术 一种专用于tdp灸疗贴的无纺布自动切割装置 (Non-woven fabrics automatic cutting device who pastes is treated in TDP moxibustion in special use ) 是由 周昆凌 曹祺 于 2021-07-26 设计创作，主要内容包括：一种专用于TDP灸疗贴的无纺布自动切割装置,包括：机架、控制台、控制面板和活动杆；控制台顶部设有控制面板；活动杆滑动设置在机架上,且活动杆一端设有用于驱动的驱动组件,且驱动组件与控制器电性连接；活动杆上设有滑动连接的气缸,且气缸竖直设置；气缸内部设有滑动连接的压合块；机架外部气泵,且气泵的开关与控制器电性连接；气缸与气泵之间通过气管连通。传统人为分切或者普通机器分切,本方案利用控制器控制气缸压合,而后进行切断,不仅能够及时停止传送,在灸疗贴整体停止后才进行分切,而后继续移动便于后续切断,同时不会影响分切效果。同时根据气体驱动气缸压合灸疗贴的状态,不容易对灸疗贴造成拉扯,从而损坏。(A non-woven fabrics automatic cutting device who is exclusively used in TDP moxibustion and treats subsides includes: the device comprises a rack, a control console, a control panel and a movable rod; the top of the console is provided with a control panel; the movable rod is arranged on the rack in a sliding manner, one end of the movable rod is provided with a driving assembly for driving, and the driving assembly is electrically connected with the controller; the movable rod is provided with a cylinder in sliding connection, and the cylinder is vertically arranged; a pressing block in sliding connection is arranged in the cylinder; the air pump is arranged outside the frame, and a switch of the air pump is electrically connected with the controller; the air cylinder is communicated with the air pump through an air pipe. The tradition is for cutting or ordinary machine cuts, and this scheme utilization controller control cylinder pressfitting then cuts off, not only can in time stop the conveying, just cuts after the whole stopping of subsides is treated in the moxibustion, then continues to remove the follow-up of being convenient for and cuts, can not influence simultaneously and cut the effect. Meanwhile, the moxibustion plaster is pressed by the air driving cylinder according to the state of the moxibustion plaster, so that the moxibustion plaster is not easy to pull and damage.)

1. The utility model provides a be exclusively used in TDP moxibustion and treat non-woven fabrics automatic cutting device who pastes which characterized in that includes: the device comprises a rack (1), a control console (3), a control panel (4) and a movable rod (7); the control console (3) is arranged on one side of the rack (1); a control panel (4) is arranged at the top of the control console (3); the movable rod (7) is arranged on the rack (1) in a sliding mode, a driving assembly for driving is arranged at one end of the movable rod (7), and the driving assembly is electrically connected with the controller; the movable rod (7) is provided with a cylinder (6) in sliding connection, and the cylinder (6) is vertically arranged; a pressing block (9) in sliding connection is arranged in the cylinder (6); an air pump (10) is arranged outside the frame (1), and a switch of the air pump (10) is electrically connected with the controller; the air cylinder (6) is communicated with the air pump (10) through an air pipe (8).

2. The device for automatically cutting non-woven fabrics special for TDP moxibustion according to claim 1, characterized in that the control console (3) is provided with a brake button (5).

3. The automatic cutting device of non-woven fabrics special for TDP moxibustion sticks as claimed in claim 1, characterized in that the rack (1) is provided with a containing table (2).

4. The automatic non-woven fabric cutting device special for the TDP moxibustion patch according to claim 1, characterized in that the frame (1) is provided with a cutting component and is arranged in the middle of the cylinder (6); the cutting assembly includes: a cutting cylinder (11) and a cutter (13); the cutting cylinder (11) is fixedly arranged on the movable rod (7) and is arranged in the middle of the air cylinder (6); a sliding block (12) in sliding connection is arranged in the cutting cylinder (11); the cutting knife (13) is fixedly arranged at the bottom of the sliding block (12); springs (14) are arranged at the top of the sliding block (12) and inside the cutting cylinder (11); the top of the cutting cylinder (11) is provided with a through hole, an air pipe (8) is arranged at the through hole, and the air pipe (8) is communicated with an air pump (10).

5. The automatic cutting device of non-woven fabrics special for TDP moxibustion plaster according to claim 1, characterized in that the cutting cylinder (11) is provided with a pretreatment device near the feeding end, the pretreatment device comprises: a joint, a bellows and an armature; a housing is arranged outside the auxiliary device; the bottom of the auxiliary device is provided with a base, the middle part of the base is provided with a through hole, the connector penetrates through the through hole, and the bottom of the connector is contacted with the patch of the moxibustion plaster; the bellows is arranged at the top of the joint and is arranged in the auxiliary device; the bottom of the housing is closed, the circuit board is arranged at the bottom of the housing, and the differential transformer is arranged in the middle of the housing; the armature is arranged in the middle of the differential transformer; the other end of the housing is provided with a through hole and a socket; and a voltage detector is arranged outside the auxiliary device and electrically connected with the controller.

6. The automatic non-woven fabric cutting device special for the TDP moxibustion plaster of claim 1, wherein an electromagnet is arranged at the top of the armature, and a power-on device is arranged outside the electromagnet and is electrically connected with the controller.

Technical Field

The invention relates to the technical field of slitting, in particular to a non-woven fabric automatic cutting device special for a TDP moxibustion plaster.

Background

TDP refers to the specific electromagnetic spectrum that emits a series of thermal electromagnetic waves through a special black body-emitting plate. Electromagnetic waves penetrate deeper than normal infrared light, and are widely used in hospitals and clinics in combination with acupuncture therapy or applied alone to relieve pain, reduce inflammation, and promote blood circulation and metabolism. TDP can also be used to eliminate off-flavors and associated smoke, such as smoke from the burning of moxa sticks, and it can also be used in place of acupuncture. The TDP moxibustion patch is excited by a heat source, a patch is placed at the heat source, and the TDP moxibustion patch is applied to an affected part to achieve the effects of promoting blood circulation and removing blood stasis. After the existing TDP moxibustion paste is manufactured into a product, redundant edges of the moxibustion paste need to be cut off, but when the edges are cut off, the conveying belts convey the moxibustion paste at the same time, but the cutting errors are easily caused when the edges are conveyed and cut, and the cutting of the moxibustion paste is influenced.

Disclosure of Invention

The purpose of this scheme is to provide a non-woven fabrics automatic cutting device who pastes is treated in TDP moxibustion exclusively used in to solve the problem that the limit conveying was cut off simultaneously.

In order to reach above-mentioned purpose, this scheme provides a non-woven fabrics automatic cutting device who pastes is exclusively used in TDP moxibustion, includes: the device comprises a rack, a control console, a control panel and a movable rod; the control console is arranged on one side of the frame; a control panel is arranged at the top of the control console; the movable rod is arranged on the rack in a sliding mode, a driving assembly for driving is arranged at one end of the movable rod, and the driving assembly is electrically connected with the controller; the movable rod is provided with a cylinder in sliding connection, and the cylinder is vertically arranged; a pressing block in sliding connection is arranged in the cylinder; the air pump is arranged outside the rack, and a switch of the air pump is electrically connected with the controller; the air cylinder is communicated with the air pump through an air pipe.

The principle of the scheme is as follows: will place for the paster of cutting and hold the bench, and then controller input order makes the air pump to trachea conveying gas. The inside of the cylinder is provided with a pressing block in sliding connection and driven by an air pipe. When the controller controls the air pump to convey air outwards, the air pipe conveys the air into the air cylinder, so that the air pressure inside the air cylinder is increased, the pressing block is pushed to move downwards, and the non-woven fabric is pressed. After the controller control cylinder pressfitting lived the non-woven fabrics, the control cutting subassembly drive, and control air pump is to the conveying gas in the cutting section of thick bamboo, and then makes the cutter move down, and the spring is tensile, and then makes the non-woven fabrics cut off after fixed, cuts off the back, mentions the discharge by controller control, and then makes the sliding block want the rebound under the effect of spring. Thereby causing the cutter to move upwardly back into the interior of the cutting drum. Simultaneously the cutter removes with removing the non-woven fabrics on the movable rod, avoids forming wedge incision between cutter and the non-woven fabrics.

The scheme has the beneficial effects that: to the tradition artificially cut or ordinary machine cuts, this scheme utilization controller control cylinder pressfitting then cuts off, not only can in time stop the conveying, just cut after the whole stop of non-woven fabrics, then continue to remove the follow-up of being convenient for and cut off, can not influence simultaneously and cut the effect. Meanwhile, the non-woven fabric is not easy to pull according to the state of pressing the non-woven fabric by the gas driving cylinder, so that the non-woven fabric is damaged. Simultaneously this scheme utilization cutter and non-woven fabrics simultaneous movement realize following the cutting, exactly when the cutting, the sword is with the non-woven fabrics simultaneous movement who is cut. The cutting machine can cut without stopping the non-woven fabric, thereby improving the cutting efficiency, avoiding instant dragging in the cutting process and ensuring the cutting quality. Simultaneously the cutter removes with removing the non-woven fabrics on the movable rod, avoids forming wedge incision between cutter and the non-woven fabrics, and the effect is cut in the influence.

Furthermore, a brake button is arranged on the console. When the device is stuck or in other emergency situations, the device can be braked emergently by manually pressing a brake button. The purpose is to ensure the safety of operators and simultaneously reduce the damage of machinery.

Furthermore, a holding platform is arranged on the machine frame. A hold platform for holding moxibustion plaster, and then make moxibustion plaster horizontal place to can guide to remove to cutting assembly in

Furthermore, a cutting assembly is arranged on the rack and is arranged in the middle of the air cylinder; the cutting assembly includes: a cutting drum and a cutter; the cutting cylinder is fixedly arranged on the rack and arranged in the middle of the air cylinder; a sliding block in sliding connection is arranged inside the cutting cylinder; the cutter is fixedly arranged at the bottom of the sliding block; springs are arranged at the top of the sliding block and inside the cutting barrel; a through hole is formed in the top of the cutting cylinder, an air pipe is arranged at the through hole, and the air pipe is communicated with an air pump. After the subsides are lived in the pressfitting of controller control cylinder, the drive of control cutting assembly, control air pump is to cutting a section of thick bamboo conveying gas in, and then makes the cutter move down, and the spring is tensile, and then makes the subsides of moxibustion cut off after fixed, cuts off the back, mentions the discharge by controller control, and then makes the sliding block want upward movement under the effect of spring. Thereby causing the cutter to move upwardly back into the interior of the cutting drum.

Further, a pretreatment device is arranged on the side, close to the feeding end, of the cutting cylinder (11), and the pretreatment device comprises: a joint, a bellows and an armature; a housing is arranged outside the auxiliary device; the bottom of the auxiliary device is provided with a base, the middle part of the base is provided with a through hole, the connector penetrates through the through hole, and the bottom of the connector is contacted with the patch of the moxibustion plaster; the bellows is arranged at the top of the joint and is arranged in the auxiliary device; the bottom of the housing is closed, the circuit board is arranged at the bottom of the housing, and the differential transformer is arranged in the middle of the housing; the armature is arranged in the middle of the differential transformer; the other end of the housing is provided with a through hole and a socket; and a voltage detector is arranged outside the auxiliary device and electrically connected with the controller. When no pressure exists, the diaphragm capsule is in an initial state, so that the armature connected to the center of the diaphragm capsule is positioned in the middle of a coil of the differential transformer, and the output voltage is zero; when the moxibustion plaster moves to the bottom of the pretreatment device, the bulging shape of the plaster further pushes the connector to move upwards, and then the connector inputs the membrane box, and then the armature is pushed to move, so that the differential transformer outputs voltage proportional to the measured pressure, the voltage is detected by the voltage detector and transmitted to the controller. And the controller controls the moxibustion plaster to stop and controls the starting and pushing distance of the first motor. The greater the voltage value, the greater the pressure value measured at the surface, which in turn indicates a more bulging patch.

Furthermore, an electromagnet is arranged at the top of the armature, and an electrifying device is arranged outside the electromagnet and electrically connected with the controller. And when the non-woven fabric pushes the rear end armature to move upwards, the controller immediately controls the electromagnet to power off, and then the front end armature is enabled to reset downwards quickly. Meanwhile, the armature can knock on the paster, so that the non-woven fabric and the paster are tightly attached. Simultaneously through the setting of front and back armature, based on cutter cutting signal, prevent cutter cutting skew.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a front view of an embodiment of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

the reference numbers in the drawings of the specification include: the cutting machine comprises a rack 1, a containing table 2, a control table 3, a control panel 4, a brake button 5, a cylinder 6, a movable rod 7, an air pipe 8, a pressing block 9, an air pump 10, a cutting cylinder 11, a sliding block 12, a cutter 13 and a spring 14.

As shown in figure 1:

a non-woven fabric automatic cutting device special for a TDP moxibustion plaster is composed of a machine frame 1 and a cutting assembly. Be equipped with the platform 2 that holds that is used for holding the non-woven fabrics on the frame 1, and then make the non-woven fabrics place horizontally to can guide and remove to the cutting assembly in.

One side of the frame 1 is provided with a control console 3 for controlling all operation commands of the device. The top of the console 3 is provided with a control panel 4 which is convenient for a user to operate and input instructions, one side of the control panel 4 is provided with a brake button 5, and when the user is stuck or has other emergency situations, the device can be braked emergently by manually pressing the brake button 5. The purpose is to ensure the safety of operators and simultaneously reduce the damage of machinery.

The rack 1 is provided with a sliding-mounted movable rod 7, and one end of the movable rod 7 is provided with a driving device and is electrically connected with the controller. The moving direction and the moving degree of the movable rod 7 are manually controlled or input by a program, and then the driving device is driven to move, so that the movable rod 7 is driven to move.

The movable rod 7 is provided with a cylinder 6 which is installed in a sliding mode, and the cylinder 6 is arranged vertically. The purpose is used for pressing from both sides tight non-woven fabrics, is used for fixed simultaneously, and the follow-up processing of being convenient for is cut off. The top of the cylinder 6 is provided with an air pipe 8 for conveying driving air, the outside of the frame 1 is provided with a fixedly installed air pump 10, and the cylinder 6 is communicated with the air pump 10. Meanwhile, the air pump 10 is electrically connected with the controller, and the controller inputs a command to enable the air pump 10 to deliver air to the air pipe 8. The inside of the cylinder 6 is provided with a pressing block 9 which is connected in a sliding way and is driven by an air pipe 8. When the controller controls the air pump 10 to deliver air outwards, the air is delivered into the air cylinder 6 through the air pipe 8, so that the air pressure inside the air cylinder 6 is increased, the pressing block 9 is pushed to move downwards, and the non-woven fabric is pressed.

The movable rod 7 can move transversely on the machine frame 1, so that the air cylinder 6 can move along with the movement of the non-woven fabric.

As shown in fig. 2:

the cylinder 6 middle part is equipped with the cutting assembly who is used for cutting the non-woven fabrics, includes: cutting drum 11, slide block 12, cutter 13 and spring 14; cutting barrel 11 is fixed to be set up on movable rod 7, and sets up in 6 middle parts of cylinder, and cutting barrel 11 is inside to be equipped with sliding connection's sliding block 12, and sliding block 12 bottom is equipped with fixed mounting's cutter 13, and sliding block 12 top and cutting barrel 11 are inside to be equipped with spring 14, and cutting barrel 11 top is equipped with the through-hole, and through-hole department is equipped with trachea 8, trachea 8 and air pump 10 intercommunication. After the controller controls the cylinder 6 to press the non-woven fabric, the cutting assembly is controlled to drive, the air pump 10 is controlled to convey air into the cutting barrel 11, the cutter 13 is made to move downwards, the spring 14 is stretched, the non-woven fabric is made to be cut off after being fixed, after the non-woven fabric is cut off, the non-woven fabric is controlled by the controller to be lifted and discharged, and the sliding block 12 is made to move upwards under the action of the spring 14. Thereby causing the cutter 13 to move upwardly back inside the cutting drum 11.

In specific operation, the non-woven fabric is placed on the holding table 2, and then the controller inputs a command to enable the air pump 10 to deliver air to the air pipe 8. The inside of the cylinder 6 is provided with a pressing block 9 which is connected in a sliding way and is driven by an air pipe 8. When the controller controls the air pump 10 to deliver air outwards, the air is delivered into the air cylinder 6 through the air pipe 8, so that the air pressure inside the air cylinder 6 is increased, the pressing block 9 is pushed to move downwards, and the non-woven fabric is pressed. After the controller controls the cylinder 6 to press the non-woven fabric, the cutting assembly is controlled to drive, the air pump 10 is controlled to convey air into the cutting barrel 11, the cutter 13 is made to move downwards, the spring 14 is stretched, the non-woven fabric is made to be cut off after being fixed, after the non-woven fabric is cut off, the non-woven fabric is controlled by the controller to be lifted and discharged, and the sliding block 12 is made to move upwards under the action of the spring. Thereby causing the cutter 13 to move upwardly back inside the cutting drum 11.

Example 2

Embodiment 2 differs from embodiment 1 in that a pretreatment device is provided near the feed end side before cutting, the pretreatment device including: the differential transformer comprises a joint, a diaphragm capsule, a base, a circuit board, a differential transformer, an armature, a housing and a socket; the pretreatment device is arranged on one side of the cutting cylinder, and the outer part of the pretreatment device is provided with a housing for dust prevention and fixation. The bottom of the pretreatment device is provided with a base, the middle of the base is provided with a through hole, the connector penetrates through the through hole, and the bottom of the connector is in contact with the patch. The top of the joint is provided with a diaphragm capsule and is arranged inside the sensor, the bottom of the housing is sealed, the bottom of the housing is provided with a circuit board, the middle of the housing is provided with a differential transformer, the middle of the differential transformer is provided with armatures, and the number of the armatures is two. The other end of the housing is provided with a through hole and a socket. The voltage detector is arranged outside the pretreatment device and is electrically connected with the controller. When no pressure exists, the diaphragm capsule is in an initial state, so that the armature connected to the center of the diaphragm capsule is positioned in the middle of a coil of the differential transformer, and the output voltage is zero; when the non-woven fabric moves to the bottom of the pretreatment device, the bulging shape of the patch further pushes the connector to move upwards, and then after the connector is input into the membrane box, the armature is pushed to move, so that the differential transformer outputs voltage in direct proportion to the measured pressure, the voltage is detected by the voltage detector, and the voltage is transmitted to the controller. And the controller controls the non-woven fabric to stop and controls the starting and pushing distance of the first motor. The greater the voltage value, the greater the pressure value measured at the surface, which in turn indicates a more bulging patch. And when the non-woven fabric pushes the rear end armature to move upwards, the controller immediately controls the electromagnet to power off, and then the front end armature is enabled to reset downwards quickly. Meanwhile, the armature can knock on the paster, so that the non-woven fabric and the paster are tightly attached. Simultaneously through the setting of front and back armature, based on cutter cutting signal, prevent cutter cutting skew.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.